An in-line web-centering apparatus for centering a web of material in an aseptic internal area of a form-fill-seal packaging machine. The web-centering apparatus has a support member, a tracking assembly, and an alignment mechanism, each contained within the internal aseptic area of the packaging machine. The support member is internally fixed to the form-fill-seal packaging machine. The tracking assembly is mounted to the support member and pivots about the support member. The pivoting of the tracking assembly positions the tracking assembly at an angle with respect to the support member, such that when the alignment mechanism is activated the angle of the tracking assembly is modified, thereby adjusting a flow path of the web of material in the packaging machine.
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21. A tracking mechanism for a form-fill-seal packaging machine having an internal aseptic area for forming, filling and sealing a bag, the tracking mechanism provided in the aseptic area upstream of a former assembly of the form-fill-seal packaging machine, the tracking mechanism comprising:
a tracking member rotatedly connected to a support member, wherein one of either the support member or the tracking member has a first rotating member and the other of either the support member or the tracking member has a mating receptacle, the tracking member being able to rotate about a specified angle of rotation with respect to the support member within the internal aseptic area of the form-fill-seal packaging machine, and wherein the mating area between the first rotating member and the mating receptacle is sealed off from the aseptic area of the form-fill-seal packaging machine.
1. An in-line web-centering apparatus for centering a web of material in a form-fill-seal packaging machine, comprising:
a support member fixed to the form-fill-seal packaging machine in an interior aseptic environment of the packaging machine; and, a tracking assembly mounted to the support member in the aseptic environment of the form-fill-seal packaging machine, the tracking assembly having an engaging member and a contact member connected to the engaging member, the contact member being adapted to contact the web of material, wherein the tracking assembly pivots about the support member, wherein the tracking assembly is positioned at an angle with respect to the support member, and wherein the angle of the tracking assembly is modified when the tracking assembly is pivoted about the support member, the modification of the angle of the tracking assembly adjusting a flow path of the web of material.
27. A packaging machine having an internal aseptic area, the packaging machine having a former that forms bags from a web of material, a filler that fills the bags with a substance, and a sealer that seals the bags to enclose the substance within the bags, each of the former, filler and sealer being located within the internal aseptic area of the packaging machine, the packaging machine further comprising:
a tracking mechanism located in the internal aseptic area of the packaging machine and immediately upstream of the former, the tracking mechanism contacting the web of material and pivoting within the aseptic area of the packaging machine, the tracking mechanism being connected to an external control unit that controls the pivoting of the tracking mechanism, wherein the pivoting of the tracking mechanism alters an angle of contact between the tracking mechanism and the web of material to center the web of material entering the former.
13. An apparatus for tracking a web of material in an internal aseptic environment in a form-fill-seal packaging machine, comprising:
a support member, a tracking assembly, and an alignment mechanism, the tracking assembly having a contact member depending from an engaging member, and the contact member being adapted to contact the web of material, wherein the tracking assembly is rotatedly connected to the support member, wherein one of either the support member or the tracking assembly has a first rotation member depending therefrom, and the other of either the support member or the tracking assembly has a mating receptacle, the first rotation member communicating with and rotating within the receptacle, wherein a portion of engaging surfaces between the first rotation member and the receptacle are sealed from the internal aseptic environment of the form-fill-seal packaging machine, and wherein the alignment mechanism is connected to the tracking assembly to control the angle of rotation between the support member and the tracking assembly.
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The present invention relates generally to a mechanism for adjusting the direction of a web of material in a packaging machine, and more specifically to an assembly for centering or tracking a web of film in an aseptic environment of a form-fill-seal packaging machine.
One type of packaging machine is a form-fill-seal packaging machine. Form-fill-seal packaging machines are typically utilized to package a product in a flexible container. To this end, form-fill-seal packaging machines are used to seal pharmaceuticals, foods, liquids, magazines, cosmetics, pre-boxed goods, and numerous other items in flexible containers. The form-fill-seal packaging machine provides an apparatus for packaging these and many other products in an inexpensive and efficient manner.
Pursuant to FDA requirements, certain pharmaceuticals packaged in form-fill-seal packages are traditionally sterilized in a post-packaging autoclaving step. The post-packaging step includes placing the sealed package containing the pharmaceutical in an autoclave and steam sterilizing or heating the package and its contents to a required temperature, which is often approximately 250°C F., for a prescribed period of time. This sterilization step operates to kill bacteria and other contaminants found inside the package, whether on the inner layer of film or within the pharmaceutical itself.
Certain packaged pharmaceuticals, however, cannot be sterilized in such a manner. This is because the intense heat required to kill the bacteria in the autoclaving process destroys or renders useless certain pharmaceuticals. As such, a different method of sterilization must be employed when packaging these types of pharmaceuticals.
One method of packaging heat sensitive pharmaceuticals is to first sterilize the pharmaceutical with a means other than intense heat, often through filtering, and then to package the pharmaceutical in an aseptic environment.
To date, the assignee of the present invention has developed several improvements in aseptic form-fill-seal packaging. Such improvements include at least: U.S. Pat. No. 4,761,197 (directed to an apparatus for sealing a web of film); U.S. Pat. No. 4,695,337 (directed to an apparatus and method for attaching a fitment to a web of film); U.S. Pat. No. 4,829,746 (directed to an apparatus for placing a web of film under tension); U.S. Pat. No. 4,888,155 (directed to an apparatus for sterilizing film and like packaging material); U.S. Pat. No. 4,744,845 (directed to an apparatus for splicing film together); and, U.S. Pat. No. 4,783,947 (directed to an apparatus for removing liquid and residue from a web of film).
Web tracking assemblies utilized in conventional form-fill-seal packaging machines (i.e., form-fill-seal packaging machines that do not include an aseptic packaging environment) are generally not suitable for use in an aseptic environment. For example, two conventional web tracking means are disclosed in U.S. Pat. No. 3,680,446, issued to James et al., and U.S. Pat. No. 5,833,106, issued to Harris. The '446 patent issued to James et al. discloses a tracking system including a shiftable web guide roller having adjustable air cylinders mounted at its opposite ends for independently adjusting the ends of the roller (see
Thus, improvement in tracking the web of film as it enters the former in aseptic form-fill-seal packaging machines would be useful. To date, form-fill-seal packaging machines designed for aseptic packaging utilize a tracking assembly located adjacent the unwind, and outside the aseptic environment. This tracking assembly, however, is not located adjacent the former, but rather is located upstream of the ultimate package forming process. Thus, occasionally difficulties are encountered in attempting to track the film within the aseptic environment. As a result of this web-tracking limitation, much waste, inefficiency, and increased manufacturing costs are encountered by packagers in this industry. Specifically, when the web tracking is not balanced, and the web is not aligned through the former, each package that is created generally must be discarded due to improper overlap of the layers of film in the seal area. This may result in wasted film and wasted pharmaceutical material. It also may result in increased operator expense to observe the misaligned film, to select and discard the poorly formed packages, and to attempt to re-align the film. Further, severe cases of misaligned film may result in down time for the machine. All of the above increases the manufacturing costs of packaging such pharmaceuticals.
Thus, a means for tracking the web of film in the aseptic environment of a packaging machine is essential.
The web-centering apparatus of the present invention provides an assembly for tracking a web of material within an internal aseptic area of a form-fill-seal packaging machine. Generally, the web-centering apparatus comprises a support member, a tracking assembly, and an alignment mechanism. While the web-centering apparatus is located within the aseptic area of the packaging machine, certain components of the web-centering assembly are sealed off from the aseptic area in order to maintain the integrity of the aseptic environment.
According to one aspect of the present invention, the packaging machine has a former, a filler and a sealer located within the internal aseptic area of the packaging machine. The former forms bags from a web of material; the filler fills the bags with a substance; and, the sealer seals the bags to enclose the substance within the bags.
According to another aspect of the present invention, the support member is fixed to the form-fill-seal packaging machine within an interior aseptic environment of the form-fill-seal packaging machine, and the tracking assembly is rotatedly mounted to the support member in the aseptic environment of the form-fill-seal packaging machine. To provide for the mounting engagement between the support member and the tracking assembly, one of either the support member or the tracking assembly has a shaft member depending therefrom, and the other of either the support member or the tracking assembly has an engaging receptacle for the shaft member. The shaft member is seated in the engaging receptacle and pivots within the engaging receptacle. The pivoting of the shaft member provides angular displacement of the tracking assembly.
According to another aspect of the present invention, an engagement surface of each of the shaft member and the receptacle is sealed off from the aseptic environment of the form-fill-seal packaging machine.
According to another aspect of the present invention, a portion of the engaging surfaces between the shaft member and the receptacle are sealed off from the internal aseptic environment of the form-fill-seal packaging machine with a first gasket. A second gasket member seals off a second end of the receptacle.
According to another aspect of the present invention, the web tracking apparatus has a bearing surface between the pivot shaft and the receptacle. The bearing surface is sealed off from the aseptic environment with gaskets.
According to another aspect of the present invention, the tracking assembly comprises an engaging member and a roller member connected to the engaging member. The roller member is adapted to contact the web of material, and the engaging member pivots about the support member.
According to another aspect of the present invention, the tracking assembly is positioned at an angle with respect to the support member. The angle of the tracking assembly is modified when the tracking assembly is pivoted about the support member. Modification of the angle of the tracking assembly adjusts the flow path of the web of material.
According to another aspect of the present invention, the alignment mechanism comprises a first adjustment member, a mating second adjustment member, and an operator shaft. The first adjustment member is connected to the operator shaft, the second adjustment member is fixed to the tracking assembly, and the first and second adjustment members engage each other. The operator shaft controls any movement of the first adjustment member. Through movement of the first adjustment member, which engages the second adjustment member, the tracking assembly is pivoted.
According to another aspect of the present invention, the first adjustment member comprises a worm gear connected to the operator shaft, and the second adjustment member comprises a mating spur gear fixed to the tracking assembly. The spur gear is driven by the worm gear to effectuate pivotal rotation of the tracking assembly about the support member.
According to another aspect of the present invention, a clutch mechanism is removably connected to the alignment mechanism. The clutch mechanism engages the operator shaft and allows an operator outside of the aseptic interior environment of the form-fill-seal packaging machine to rotate the operator shaft and pivot the tracking assembly to adjust the tracking of the web of material.
According to another aspect of the present invention, the roller member of the tracking assembly comprises a shaft and a roller. The shaft is secured to the engaging member, and the roller is capable of rotating about the shaft. The roller member pivots with the tracking assembly about the support member when the tracking assembly is pivoted thereabout. Further, the roller member contacts the web of material.
According to another aspect of the present invention, the tracking mechanism is located in the internal aseptic area of the packaging machine immediately upstream of the former. The tracking mechanism contacts the web of material and pivots within the aseptic area of the packaging machine. Further, the tracking mechanism is connected to an external control unit that controls the pivoting of the tracking mechanism. And, the pivoting of the tracking mechanism alters an angle of contact between the tracking mechanism and the web of material to center the web of material entering the former.
According to another aspect of the present invention, a container for holding a pharmaceutical is manufactured in an aseptic form-fill-seal packaging machine having a web centering system made in accordance with the present invention.
According to yet another aspect of the present invention, a process for centering a web of material in an aseptic environment of a form-fill-seal packaging machine is provided utilizing the web centering system made in accordance with the present invention.
Accordingly, a web centering system made in accordance with the present invention provides an inexpensive, easily manufactured, and efficient assembly which eliminates the drawbacks associated with aseptic form-fill-seal packaging machines.
Other features and advantages of the invention will be apparent from the following specification taken in conjunction with the following drawings.
To understand the present invention, it will now be described by way of example, with reference to the accompanying drawings in which:
While this invention is susceptible of embodiments in many different forms, there is shown in the drawings and will herein be described in detail a preferred embodiment of the invention with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the broad aspect of the invention to the embodiment illustrated.
Referring now in detail to the Figures, and specifically to
The function of the various assemblies of the form-fill-seal packaging machine 10 is as such: the forming assembly 24 is provided to form tubes from the web of material that ultimately becomes the flexible container or bag 28; the fin seal assembly 25 provides the longitudinal seal on the flexible container, thereby longitudinally sealing the formed tube; the filling assembly 26 includes a filler that fills the flexible containers with a substance, that being a liquid pharmaceutical in the present preferred application; and, the end sealing/cutting assembly 30 contains a cutting and sealing head that seals the ends of the flexible containers to enclose the filled substance within the flexible container.
In the preferred embodiment of the present invention, the web tracking or centering apparatus 12 comprises a support assembly 34, a tracking assembly 36, and an alignment mechanism 38. The web tracking apparatus 12 is provided to be assembled and operational within an existing internal aseptic area of an aseptic packaging machine 10. In the preferred embodiment, the web tracking apparatus 12 is located in the aseptic area immediately upstream of the former assembly 24 to provide the most effective tracking for the web of film as it enters the former.
As shown in
As best shown in
Referring now to
In the preferred embodiment shown in the Figures, first and second roller members 58a, 58b are utilized. The roller members 58 are adapted to contact the web of material, and are also identified as contact members 58. While in the preferred embodiment the roller members 58 spin about the shaft 64, it is understood that the roller members 58 may be stationary members, and in fact do not have to have a circular cross-section. A piece of flat stock or any other geometric member that can contact the web of material is understood to be within the meaning of a roller member 58 of the present invention. The first roller member 58a is connected to the engaging member 56 adjacent a first end of the engaging member 56, and the second roller member 58b is connected to the engaging member 56 adjacent a second end of the engaging member 56. The first end of the engaging member 56 is located at the downstream end of the engaging member 56, while the second end of the engaging member 56 is located at the upstream end of the engaging member 56. Each roller member 58a, 58b comprises a shaft 64 and a roller 66. The roller 66 is capable of rotating about the shaft 64 through the use of plastic bushings. The plastic bushings are non-lubricated and are capable of withstanding the corrosive elements of hydrogen peroxide during the daily sanitization process. Additionally, the plastic bushings are open to allow the hydrogen peroxide fog to enter all of the areas for cleaning. The shaft 64 is secured to a roller support 68 at each end of the shaft 64 with set screws. Further, the roller supports 68 depend from and are secured to the engaging member 56 at approximately the end of each arm 60a-60d of the engaging member 56, respectively (see FIG. 3). Thus, the roller supports 68 secure the roller members 58a, 58b to the engaging member 56. While the use of two roller members 58 provides increased tracking capabilities for the web, it has been found that one roller member 58 may suffice. When the engaging member 56 rotates within the engaging receptacle 54, both roller members 58a, 58b of the present invention pivot or rotate simultaneously with the engaging member 56. Thus, both a first upstream roller and a second downstream roller are utilized to track the film.
With reference to
As best shown in
As explained above, in the preferred embodiment the shaft member 70 depends from the engaging member 56, and the engaging receptacle 54 depends from the support member 40. Conversely, however, the shaft member 70 may depend from the support member 40 and the engaging receptacle 54 may depend from the engaging member 56. As such, one of either the support member 40 or the tracking assembly 36 has a shaft member 70 depending therefrom, and the other of either the support member 40 or the tracking assembly 36 has an engaging receptacle 54 for the shaft member 70.
Irrespective of the specific depending member for each of the shaft member 70 and the engaging receptacle 54, to form the web tracking apparatus 12 of the present invention the tracking assembly 36 is mounted to the support assembly 34 via the shaft member 70 being seated in the engaging receptacle 54, and with the shaft member 70 being capable of pivoting within the receptacle 54. Such engagement between engaging surfaces of the tracking assembly 36 and the support assembly 34 provides rotational or pivoting capabilities of the tracking assembly 36 about the support assembly 34. Initially, the tracking assembly 36 is positioned at an angle (α) with respect to the support assembly 34. When the tracking assembly 36 is pivoted or rotated about the support assembly 34, the angle (α) of the tracking assembly 36 is modified. Modification of the angle (α) of the tracking assembly 36 provides angular displacement of the tracking assembly 36, thereby adjusting the angle of the roller members 58 which contact the web of material, and ultimately adjusting the flow path of the web of material entering the former assembly 24 to allow the film to be centered as it enters the former assembly 24. As explained further herein, the alignment mechanism 38 controls the angle of rotation (α) between the support member 40 and the tracking assembly 36.
In the seating of the shaft member 70 in the engaging receptacle 54 of the support assembly 34, a plastic bushing 76 operating as a bearing surface is placed between the shaft member 70 and the inner wall of the engaging receptacle 54. The bushing 76 also has a flange to properly seat and locate the surfaces between the inner wall of the cavity of the projection 72 of the engaging member 56, and a top surface of the tubular member of the receptacle 54. Because only slight movement of the tracking assembly is effectuated, a bushing is not critical, and the surfaces of the engaging receptacle and the shaft member may be manufactured to operate as bearing surfaces.
The engaging receptacle 54 also has a groove 78 machined in its outer diameter. A first gasket member 80 is seated in the groove 78. In the preferred embodiment, the first gasket 80 is an silicon rubber O-Ring. When the engaging member 56 engages the engaging receptacle 54, the first gasket 80 extends between the engaging member 56 and the support member 40. Specifically, the O-Ring 80 in the groove 78 of the engaging receptacle 54 engages the inner wall of the cavity of the projection 72 to seal a first end of the receptacle 54. Thus, a portion of the mating area of the engaging surfaces between the pivot shaft 70 and the receptacle 54 adjacent a first end of the receptacle is sealed off from the internal aseptic environment of the form-fill-seal packaging machine 10.
After the shaft 70 is seated in the opening of the engaging receptacle 54, a retainer 82 is secured to the shaft 70 to prevent the shaft 70 from disengaging from the receptacle 54. In the preferred embodiment, the retainer 82 is a retaining ring. The retainer 82 vertically fixes the support assembly 34 to the tracking assembly 36, but the retainer 82 does not prevent pivotal or rotational displacement between the two assemblies.
Once the tracking assembly 36 is rotatedly fixed to the support assembly 34 with the retaining ring 82, a cover 84 and a second gasket member 86 are used to seal the second end of the receptacle 54. Specifically, in the preferred embodiment the second gasket member 86, preferably made of silicon rubber, is fitted between a bottom surface of the support member 40 and the cover 84 to seal off the mating areas of the pivotal engagement surfaces between the pivot shaft 70 and a second end of the receptacle 54 from the internal aseptic environment of the form-fill-seal packaging machine 10. Sealing off the first and second ends of the cavity areas between the pivot shaft and the mating receptacle creates a sealed off area for the pivotal engagement surfaces separate from and within the aseptic environment of the packaging machine. To maintain the aseptic environment of the packaging machine, the pivotal engagement bearing surfaces between the pivot shaft and engaging receptacle must be located within that sealed-off area.
As shown in
In the preferred embodiment, the first alignment member 88 comprises a first gear member connected adjacent a distal end of the operator shaft 94. The first gear member is preferably a single-threaded, 16 pitch, stainless steel precision worm gear having a lead of 0.1963 inch, a lead angle of 5°C-43', and a pressure angle of 14-½°C. The second alignment member 90 comprises a second gear member that mates with the worm gear 88. The second gear member is made of from a mating spur gear having 180 teeth about its circumference, however, the spur gear utilized in the preferred embodiment is a partial spur gear of the identified gear, and only has approximately 18 of the 180 teeth. The partial spur gear 90 is fixed to a bracket 96 connected to the engaging member 56 of the tracking assembly 36. The first gear member 88 is manipulated by rotation of the operator shaft 94. Further, the worm gear 88 drives the spur gear 90 to effectuate rotation of the tracking assembly 36 about the support assembly 34 via the pivot shaft 70. Use of a worm gear to manipulate a spur gear provides increased control and precision in adjusting the tracking assembly 36 in fine increments. This is because the ratio between the worm gear and the spur gear should be at least 100 to 1, and in the preferred embodiment is approximately 180 to 1. However, a ratio of less than 100 to 1 will not destroy the intent of the invention. Additionally, use of the worm gear in combination with the spur gear provides a positive locking mechanism that is able to overcome any force provided by the film on the roller member. As such, the film will not cause movement of the tracking assembly.
The alignment mechanism 38 further has a first clutch member 102 connected adjacent a proximal end of the operator shaft 94, and opposite the worm gear 88. The first clutch member 102 cooperates to removably secure the alignment mechanism 38 to a controller 104 located outside the aseptic area of the form-fill-seal packaging machine. The first clutch member 102 has a plurality of fingers 106 which allow it to engage the controller 104. In the preferred embodiment, the alignment mechanism 38 is maintained within the aseptic environment and is sealed from a portion of the controller 104, which is located outside the aseptic environment.
As shown in
The shaft 110 and the cylindrical portion of the bushing 116 extend inside the aseptic environment of the packaging machine 10. Along with the first controller gasket 112, the second controller gasket 114 prevents external contaminants from entering the internal aseptic environment. Specifically, the second controller gasket 114 is preferably a silicon O-Ring located between the internal diameter of the hollowed out portion of the bushing 116 and the controller shaft 110 within the bushing 116. A portion of the second end of the controller shaft 110 extends beyond an outer limit of the bushing 116 and is connected to the second clutch member 118 with a set screw. The second clutch member 118 has a pin 120 which is adapted to engage the first clutch member 102 to turn the operator shaft 94. The controller assembly 104 is removably connected to the alignment mechanism, and allows an operator to rotate the operator shaft to effectuate rotation of the tracking assembly.
The container 28 produced by the form-fill-seal packaging machine 10 having the web tracking assembly 12 is shown in FIG. 7. The container 28 is made from a web of polymeric film material that is formed in the packaging machine. The container 28 has a cavity 126 enclosed by a first wall 128, an opposing second wall 130, and seals 132, 134, 136 about a periphery of the first and second walls 128, 130. The longitudinal seal 132 at the top of the container 28 opposes the fold area 138 at the bottom of the container 28. The joined seals 132, 134, 136 and the fold 138 create a fluid-tight chamber within the cavity 126 of the container 28. As explained later herein, a quantity of a pharmaceutical is stored within the fluid-tight chamber 126 of the container 28. With the use of the web tracking assembly 12, the peripheral edge of the first wall 128 and the second wall 130 are located substantially adjacent one another to form the longitudinal seal 132.
The container 28 also has a fitment 140. The fitment 140 is connected to the container 28 at the fold area 138, and has a passageway that cooperates with the fluid-tight chamber 126 of the container 28.
As shown in
Prior to usage, the internal aseptic area of the packaging machine must be sterilized each day. This is accomplished with a hydrogen peroxide fog which is passed through the aseptic area of the packaging machine. Because of the sterilization process, and the need to maintain an aseptic environment, the present invention, including the sealed off areas specifically for the moving parts is required.
Currently, three different sizes of flexible containers 28 are capable of being filled in the aseptic form-fill-seal packaging machine: 50 ml, 100 ml, and 200 ml. However, the tracking assembly of the present invention can be utilized for larger or smaller size bags.
While the specific embodiments have been illustrated and described, numerous modifications come to mind without significantly departing from the spirit of the invention, and the scope of protection is only limited by the scope of the accompanying claims.
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Apr 27 2001 | Baxter International, Inc. | (assignment on the face of the patent) | / | |||
Jun 26 2001 | SCHMIDT, JOSEF | Baxter International Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 011997 | /0717 |
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